According to one embodiment, a structure comprises an electrode of a lower MIM capacitor situated in a first interconnect metal layer of a semiconductor die. The structure further comprises a shared electrode of the lower MIM capacitor and an upper MIM capacitor. The structure further comprises an electrode of the upper MIM capacitor situated over the shared electrode. The electrode of the upper MIM capacitor is coupled to the electrode of the lower MIM capacitor through vias and a second interconnect metal layer. In one embodiment, the electrode of the upper MIM capacitor can be divided into two or more segments to allow additional paths for connectivity to reduce the resistance of an electrode of the composite MIM capacitor. In other embodiments, a method for fabricating various embodiments of the composite MIM capacitor is disclosed.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for fabricating a composite capacitor in a semiconductor die, said method comprising steps of: depositing a first interconnect metal layer over a first interlayer dielectric layer; depositing a shared metal over said first interconnect metal layer; depositing an upper high-k dielectric over said shared metal said upper high-k dielectric comprising first and second dielectric segments; forming an electrode of an upper capacitor in an upper metal situated over said shared metal, said electrode of said upper capacitor comprising a first metal plate situated on said first dielectric segment and a second metal plate situated on said second dielectric segment, said first metal plate and said first dielectric segment being separated from said second metal plate and said second dielectric segment; patterning said shared metal to form a shared electrode of said upper capacitor and a lower capacitor; patterning said first interconnect metal layer to form an electrode of said lower capacitor; connecting said electrode of said upper capacitor to said electrode of said lower capacitor so as to form said composite capacitor as a parallel combination of said lower capacitor and said upper capacitor.
2. The method of claim 1 wherein said connecting step comprises connecting said electrode of said lower capacitor to said electrode of said upper capacitor through a second interconnect metal layer in said semiconductor die.
3. The method of claim 1 further comprising the step of: depositing a lower high-k dielectric between said electrode of said lower capacitor and said shared electrode.
4. The method of claim 3 wherein said lower high-k dielectric is selected from the group consisting of silicon oxide, silicon nitride, tantalum pentoxide, aluminum oxide, hafnium oxide, zirconium oxide, zirconium aluminum silicate, hafnium silicate, and hafnium aluminum silicate.
5. The method of claim 1 wherein said upper high-k dielectric is selected from the group consisting of silicon oxide, silicon nitride, tantalum pentoxide, aluminum oxide, hafnium oxide, zirconium oxide, zirconium aluminum silicate, hafnium silicate, and hafnium aluminum silicate.
6. The method of claim 2 further comprising steps of: depositing an interlayer dielectric layer between said first interconnect metal layer and said second interconnect metal layer; forming a plurality of vias in said interlayer dielectric layer, said plurality of vias connecting said electrode of said lower capacitor, said shared electrode, and said electrode of said upper capacitor to said second interconnect metal layer.
7. The method of claim 6 wherein said interlayer dielectric layer comprises a low-k dielectric.
8. The method of claim 7 wherein said low-k dielectric is selected from the group consisting of porous silica, fluorinated amorphous carbon, fluoro-polymer, parylene, polyarylene ether, silsesquioxane, fluorinated silicon dioxide, and diamond-like carbon.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
May 19, 2004
July 18, 2006
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